/******************************************************************************
 * Spine Runtimes License Agreement
 * Last updated January 1, 2020. Replaces all prior versions.
 *
 * Copyright (c) 2013-2020, Esoteric Software LLC
 *
 * Integration of the Spine Runtimes into software or otherwise creating
 * derivative works of the Spine Runtimes is permitted under the terms and
 * conditions of Section 2 of the Spine Editor License Agreement:
 * http://esotericsoftware.com/spine-editor-license
 *
 * Otherwise, it is permitted to integrate the Spine Runtimes into software
 * or otherwise create derivative works of the Spine Runtimes (collectively,
 * "Products"), provided that each user of the Products must obtain their own
 * Spine Editor license and redistribution of the Products in any form must
 * include this license and copyright notice.
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 * THE SPINE RUNTIMES ARE PROVIDED BY ESOTERIC SOFTWARE LLC "AS IS" AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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 *****************************************************************************/

#ifndef Spine_AnimationState_h
#define Spine_AnimationState_h

#include <spine/HasRendererObject.h>
#include <spine/MixBlend.h>
#include <spine/Pool.h>
#include <spine/SpineObject.h>
#include <spine/SpineString.h>
#include <spine/Vector.h>

#ifdef SPINE_USE_STD_FUNCTION
    #include <functional>
#endif

namespace spine {
enum EventType {
    EventType_Start,
    EventType_Interrupt,
    EventType_End,
    EventType_Dispose,
    EventType_Complete,
    EventType_Event
};

class AnimationState;
class TrackEntry;

class Animation;
class Event;
class AnimationStateData;
class Skeleton;
class RotateTimeline;

#ifdef SPINE_USE_STD_FUNCTION
typedef std::function<void(AnimationState* state, EventType type, TrackEntry* entry, Event* event)> AnimationStateListener;
#else
typedef void (*AnimationStateListener)(AnimationState* state, EventType type, TrackEntry* entry, Event* event);
#endif

/// Abstract class to inherit from to create a callback object
class SP_API AnimationStateListenerObject {
public:
    AnimationStateListenerObject(){};
    virtual ~AnimationStateListenerObject(){};

public:
    /// The callback function to be called
    virtual void callback(AnimationState* state, EventType type, TrackEntry* entry, Event* event) = 0;
};

/// State for the playback of an animation
class SP_API TrackEntry : public SpineObject, public HasRendererObject {
    friend class EventQueue;
    friend class AnimationState;

public:
    TrackEntry();

    virtual ~TrackEntry();

    /// The index of the track where this entry is either current or queued.
    int getTrackIndex();

    /// The animation to apply for this track entry.
    Animation* getAnimation();

    /// If true, the animation will repeat. If false, it will not, instead its last frame is applied if played beyond its duration.
    bool getLoop();
    void setLoop(bool inValue);

    /// If true, when mixing from the previous animation to this animation, the previous animation is applied as normal instead
    /// of being mixed out.
    ///
    /// When mixing between animations that key the same property, if a lower track also keys that property then the value will
    /// briefly dip toward the lower track value during the mix. This happens because the first animation mixes from 100% to 0%
    /// while the second animation mixes from 0% to 100%. Setting holdPrevious to true applies the first animation
    /// at 100% during the mix so the lower track value is overwritten. Such dipping does not occur on the lowest track which
    /// keys the property, only when a higher track also keys the property.
    ///
    /// Snapping will occur if holdPrevious is true and this animation does not key all the same properties as the
    /// previous animation.
    bool getHoldPrevious();
    void setHoldPrevious(bool inValue);

    /// Seconds to postpone playing the animation. When a track entry is the current track entry, delay postpones incrementing
    /// the track time. When a track entry is queued, delay is the time from the start of the previous animation to when the
    /// track entry will become the current track entry.
    float getDelay();
    void setDelay(float inValue);

    /// Current time in seconds this track entry has been the current track entry. The track time determines
    /// TrackEntry.AnimationTime. The track time can be set to start the animation at a time other than 0, without affecting looping.
    float getTrackTime();
    void setTrackTime(float inValue);

    /// The track time in seconds when this animation will be removed from the track. Defaults to the animation duration for
    /// non-looping animations and to int.MaxValue for looping animations. If the track end time is reached and no
    /// other animations are queued for playback, and mixing from any previous animations is complete, properties keyed by the animation,
    /// are set to the setup pose and the track is cleared.
    ///
    /// It may be desired to use AnimationState.addEmptyAnimation(int, float, float) to mix the properties back to the
    /// setup pose over time, rather than have it happen instantly.
    float getTrackEnd();
    void setTrackEnd(float inValue);

    /// Seconds when this animation starts, both initially and after looping. Defaults to 0.
    ///
    /// When changing the animation start time, it often makes sense to set TrackEntry.AnimationLast to the same value to
    /// prevent timeline keys before the start time from triggering.
    float getAnimationStart();
    void setAnimationStart(float inValue);

    /// Seconds for the last frame of this animation. Non-looping animations won't play past this time. Looping animations will
    /// loop back to TrackEntry.AnimationStart at this time. Defaults to the animation duration.
    float getAnimationEnd();
    void setAnimationEnd(float inValue);

    /// The time in seconds this animation was last applied. Some timelines use this for one-time triggers. Eg, when this
    /// animation is applied, event timelines will fire all events between the animation last time (exclusive) and animation time
    /// (inclusive). Defaults to -1 to ensure triggers on frame 0 happen the first time this animation is applied.
    float getAnimationLast();
    void setAnimationLast(float inValue);

    /// Uses TrackEntry.TrackTime to compute the animation time between TrackEntry.AnimationStart. and
    /// TrackEntry.AnimationEnd. When the track time is 0, the animation time is equal to the animation start time.
    float getAnimationTime();

    /// Multiplier for the delta time when the animation state is updated, causing time for this animation to play slower or
    /// faster. Defaults to 1.
    float getTimeScale();
    void setTimeScale(float inValue);

    /// Values less than 1 mix this animation with the last skeleton pose. Defaults to 1, which overwrites the last skeleton pose with
    /// this animation.
    ///
    /// Typically track 0 is used to completely pose the skeleton, then alpha can be used on higher tracks. It doesn't make sense
    /// to use alpha on track 0 if the skeleton pose is from the last frame render.
    float getAlpha();
    void setAlpha(float inValue);

    ///
    /// When the mix percentage (mix time / mix duration) is less than the event threshold, event timelines for the animation
    /// being mixed out will be applied. Defaults to 0, so event timelines are not applied for an animation being mixed out.
    float getEventThreshold();
    void setEventThreshold(float inValue);

    /// When the mix percentage (mix time / mix duration) is less than the attachment threshold, attachment timelines for the
    /// animation being mixed out will be applied. Defaults to 0, so attachment timelines are not applied for an animation being
    /// mixed out.
    float getAttachmentThreshold();
    void setAttachmentThreshold(float inValue);

    /// When the mix percentage (mix time / mix duration) is less than the draw order threshold, draw order timelines for the
    /// animation being mixed out will be applied. Defaults to 0, so draw order timelines are not applied for an animation being
    /// mixed out.
    float getDrawOrderThreshold();
    void setDrawOrderThreshold(float inValue);

    /// The animation queued to start after this animation, or NULL.
    TrackEntry* getNext();

    /// Returns true if at least one loop has been completed.
    bool isComplete();

    /// Seconds from 0 to the mix duration when mixing from the previous animation to this animation. May be slightly more than
    /// TrackEntry.MixDuration when the mix is complete.
    float getMixTime();
    void setMixTime(float inValue);

    /// Seconds for mixing from the previous animation to this animation. Defaults to the value provided by
    /// AnimationStateData based on the animation before this animation (if any).
    ///
    /// The mix duration can be set manually rather than use the value from AnimationStateData.GetMix.
    /// In that case, the mixDuration must be set before AnimationState.update(float) is next called.
    ///
    /// When using AnimationState::addAnimation(int, Animation, bool, float) with a delay
    /// less than or equal to 0, note the Delay is set using the mix duration from the AnimationStateData
    float getMixDuration();
    void setMixDuration(float inValue);

    MixBlend getMixBlend();
    void setMixBlend(MixBlend blend);

    /// The track entry for the previous animation when mixing from the previous animation to this animation, or NULL if no
    /// mixing is currently occuring. When mixing from multiple animations, MixingFrom makes up a double linked list with MixingTo.
    TrackEntry* getMixingFrom();

    /// The track entry for the next animation when mixing from this animation, or NULL if no mixing is currently occuring.
    /// When mixing from multiple animations, MixingTo makes up a double linked list with MixingFrom.
    TrackEntry* getMixingTo();

    /// Resets the rotation directions for mixing this entry's rotate timelines. This can be useful to avoid bones rotating the
    /// long way around when using alpha and starting animations on other tracks.
    ///
    /// Mixing involves finding a rotation between two others, which has two possible solutions: the short way or the long way around.
    /// The two rotations likely change over time, so which direction is the short or long way also changes.
    /// If the short way was always chosen, bones would flip to the other side when that direction became the long way.
    /// TrackEntry chooses the short way the first time it is applied and remembers that direction.
    void resetRotationDirections();

    void setListener(AnimationStateListener listener);

    void setListener(AnimationStateListenerObject* listener);
#ifndef __EMSCRIPTEN__
private:
#endif
    Animation* _animation;

    TrackEntry* _next;
    TrackEntry* _mixingFrom;
    TrackEntry* _mixingTo;
    int _trackIndex;

    bool _loop, _holdPrevious;
    float _eventThreshold, _attachmentThreshold, _drawOrderThreshold;
    float _animationStart, _animationEnd, _animationLast, _nextAnimationLast;
    float _delay, _trackTime, _trackLast, _nextTrackLast, _trackEnd, _timeScale;
    float _alpha, _mixTime, _mixDuration, _interruptAlpha, _totalAlpha;
    MixBlend _mixBlend;
    Vector<int> _timelineMode;
    Vector<TrackEntry*> _timelineHoldMix;
    Vector<float> _timelinesRotation;
    AnimationStateListener _listener;
    AnimationStateListenerObject* _listenerObject;

    void reset();
};

class SP_API EventQueueEntry : public SpineObject {
    friend class EventQueue;

public:
    EventType _type;
    TrackEntry* _entry;
    Event* _event;

    EventQueueEntry(EventType eventType, TrackEntry* trackEntry, Event* event = NULL);
};

class SP_API EventQueue : public SpineObject {
    friend class AnimationState;

private:
    Vector<EventQueueEntry> _eventQueueEntries;
    AnimationState& _state;
    Pool<TrackEntry>& _trackEntryPool;
    bool _drainDisabled;

    static EventQueue* newEventQueue(AnimationState& state, Pool<TrackEntry>& trackEntryPool);

    static EventQueueEntry newEventQueueEntry(EventType eventType, TrackEntry* entry, Event* event = NULL);

    EventQueue(AnimationState& state, Pool<TrackEntry>& trackEntryPool);

    ~EventQueue();

    void start(TrackEntry* entry);

    void interrupt(TrackEntry* entry);

    void end(TrackEntry* entry);

    void dispose(TrackEntry* entry);

    void complete(TrackEntry* entry);

    void event(TrackEntry* entry, Event* event);

    /// Raises all events in the queue and drains the queue.
    void drain();
};

class SP_API AnimationState : public SpineObject, public HasRendererObject {
    friend class TrackEntry;
    friend class EventQueue;

public:
    explicit AnimationState(AnimationStateData* data);

    ~AnimationState();

    /// Increments the track entry times, setting queued animations as current if needed
    /// @param delta delta time
    void update(float delta);

    /// Poses the skeleton using the track entry animations. There are no side effects other than invoking listeners, so the
    /// animation state can be applied to multiple skeletons to pose them identically.
    bool apply(Skeleton& skeleton);

    /// Removes all animations from all tracks, leaving skeletons in their previous pose.
    /// It may be desired to use AnimationState.setEmptyAnimations(float) to mix the skeletons back to the setup pose,
    /// rather than leaving them in their previous pose.
    void clearTracks();

    /// Removes all animations from the tracks, leaving skeletons in their previous pose.
    /// It may be desired to use AnimationState.setEmptyAnimations(float) to mix the skeletons back to the setup pose,
    /// rather than leaving them in their previous pose.
    void clearTrack(size_t trackIndex);

    /// Sets an animation by name. setAnimation(int, Animation, bool)
    TrackEntry* setAnimation(size_t trackIndex, const String& animationName, bool loop);

    /// Sets the current animation for a track, discarding any queued animations.
    /// @param loop If true, the animation will repeat.
    /// If false, it will not, instead its last frame is applied if played beyond its duration.
    /// In either case TrackEntry.TrackEnd determines when the track is cleared.
    /// @return
    /// A track entry to allow further customization of animation playback. References to the track entry must not be kept
    /// after AnimationState.Dispose.
    TrackEntry* setAnimation(size_t trackIndex, Animation* animation, bool loop);

    /// Queues an animation by name.
    /// addAnimation(int, Animation, bool, float)
    TrackEntry* addAnimation(size_t trackIndex, const String& animationName, bool loop, float delay);

    /// Adds an animation to be played delay seconds after the current or last queued animation
    /// for a track. If the track is empty, it is equivalent to calling setAnimation.
    /// @param delay
    /// Seconds to begin this animation after the start of the previous animation. May be &lt;= 0 to use the animation
    /// duration of the previous track minus any mix duration plus the negative delay.
    ///
    /// @return A track entry to allow further customization of animation playback. References to the track entry must not be kept
    /// after AnimationState.Dispose
    TrackEntry* addAnimation(size_t trackIndex, Animation* animation, bool loop, float delay);

    /// Sets an empty animation for a track, discarding any queued animations, and mixes to it over the specified mix duration.
    TrackEntry* setEmptyAnimation(size_t trackIndex, float mixDuration);

    /// Adds an empty animation to be played after the current or last queued animation for a track, and mixes to it over the
    /// specified mix duration.
    /// @return
    /// A track entry to allow further customization of animation playback. References to the track entry must not be kept after AnimationState.Dispose.
    ///
    /// @param trackIndex Track number.
    /// @param mixDuration Mix duration.
    /// @param delay Seconds to begin this animation after the start of the previous animation. May be &lt;= 0 to use the animation
    /// duration of the previous track minus any mix duration plus the negative delay.
    TrackEntry* addEmptyAnimation(size_t trackIndex, float mixDuration, float delay);

    /// Sets an empty animation for every track, discarding any queued animations, and mixes to it over the specified mix duration.
    void setEmptyAnimations(float mixDuration);

    /// @return The track entry for the animation currently playing on the track, or NULL if no animation is currently playing.
    TrackEntry* getCurrent(size_t trackIndex);

    AnimationStateData* getData();

    /// A list of tracks that have animations, which may contain NULLs.
    inline Vector<TrackEntry*>& getTracks() { return _tracks; }

    float getTimeScale();
    void setTimeScale(float inValue);

    void setListener(AnimationStateListener listener);
    void setListener(AnimationStateListenerObject* listener);

    void disableQueue();
    void enableQueue();

private:
    AnimationStateData* _data;

    Pool<TrackEntry> _trackEntryPool;
    Vector<TrackEntry*> _tracks;
    Vector<Event*> _events;
    EventQueue* _queue;

    HashMap<int, bool> _propertyIDs;
    bool _animationsChanged;

    AnimationStateListener _listener;
    AnimationStateListenerObject* _listenerObject;

    float _timeScale;

    static Animation* getEmptyAnimation();

    static void applyRotateTimeline(RotateTimeline* rotateTimeline, Skeleton& skeleton, float time, float alpha, MixBlend pose, Vector<float>& timelinesRotation, size_t i, bool firstFrame);

    /// Returns true when all mixing from entries are complete.
    bool updateMixingFrom(TrackEntry* to, float delta);

    float applyMixingFrom(TrackEntry* to, Skeleton& skeleton, MixBlend currentPose);

    void queueEvents(TrackEntry* entry, float animationTime);

    /// Sets the active TrackEntry for a given track number.
    void setCurrent(size_t index, TrackEntry* current, bool interrupt);

    TrackEntry* expandToIndex(size_t index);

    /// Object-pooling version of new TrackEntry. Obtain an unused TrackEntry from the pool and clear/initialize its values.
    /// @param last May be NULL.
    TrackEntry* newTrackEntry(size_t trackIndex, Animation* animation, bool loop, TrackEntry* last);

    /// Dispose all track entries queued after the given TrackEntry.
    void disposeNext(TrackEntry* entry);

    void animationsChanged();

    void computeHold(TrackEntry* entry);

    void computeNotLast(TrackEntry* entry);
};
} // namespace spine

#endif /* Spine_AnimationState_h */
